0
A black hole is the last stage of a large star having mass more than 8-9 solar masses . Reason - When a star left with very less fuel in its core that it is not able to raise its core temperature by nuclear synthesis or it receive some extra matter in such way that it can no longer raise its core temperature, in both these cases star's temperature is not high enough to prevent it from collapsing under its own weight and when it happen two beams of high energy blasting out before the collapsing of the rest of the star (these jets of high energy are called the Gamma ray burst) and finally star explodes and in just one second it will blasting out energy 100 times more than our sun will produce in its entire life . Basically gamma ray burst is the baby cry of a black hole .
What else can I help you with?
The final stage in the evolution of the most massive stars is an?
The final stage in the evolution of the most massive stars is a supernova explosion, where the star collapses and then rebounds in a powerful explosion. This explosion can lead to the formation of either a neutron star or a black hole, depending on the mass of the collapsing core.
What is the final life cycle stage of the most massive stars?
rrrrr
Why mass is so important in determining the evolution of a star?
Hydrogen, helium, and carbon fuel are found in more massive stars. The diameter of more massive stars is bigger. Helium is found in greater abundance in more massive stars. The weight of more massive stars is greater.
What is a massive blue giant?
A massive blue giant is a type of star that is very large, hot, and luminous, with a blue-white color. These stars are much more massive than our sun and are in a later stage of their evolution, burning through their fuel at a rapid rate. They typically have short lifespans compared to smaller stars like the sun.
What is the final stage of super giant stars?
The final stage of supergiant stars is a supernova explosion. When these massive stars exhaust their nuclear fuel, they can no longer support their own gravity, leading to a catastrophic collapse of the core. This collapse results in a rebound effect that expels the outer layers, creating a bright and powerful explosion. Depending on the mass of the original star, the remnant can become a neutron star or a black hole.
The final stage in the evolution of the most massive stars is an?
The final stage in the evolution of the most massive stars is a supernova explosion, where the star collapses and then rebounds in a powerful explosion. This explosion can lead to the formation of either a neutron star or a black hole, depending on the mass of the collapsing core.
What is the final life cycle stage of the most massive stars?
rrrrr
Which physical parameter uniquely fixes a star's location on the main sequence of the Hertzsprung Russell diagram when it reaches this stage of its evolution?
The mass of the star is the physical parameter that uniquely fixes its location on the main sequence of the Hertzsprung Russell diagram when it reaches this stage of its evolution. More massive stars burn through their fuel faster and therefore occupy different regions on the main sequence compared to less massive stars.
In the last stage of stellar evolution following a supernova stars too massive to form neutron stars may form a?
In the last stage of stellar evolution, stars too massive to form neutron stars may collapse into black holes following a supernova explosion. When these massive stars exhaust their nuclear fuel, their cores collapse under gravity, leading to an event horizon that characterizes a black hole. The outer layers are expelled during the supernova, while the core's collapse results in an incredibly dense singularity from which nothing, not even light, can escape. This process marks the end of the star's life cycle, transitioning it into a black hole.
Why mass is so important in determining the evolution of a star?
Hydrogen, helium, and carbon fuel are found in more massive stars. The diameter of more massive stars is bigger. Helium is found in greater abundance in more massive stars. The weight of more massive stars is greater.
What is the significance of neutron stars on the Hertzsprung-Russell diagram?
Neutron stars are significant on the Hertzsprung-Russell diagram because they represent the final stage of stellar evolution for massive stars. They are located in the lower left corner of the diagram, known as the "degenerate dwarf" region, due to their small size and high density. Neutron stars help scientists understand the life cycle of stars and the different stages they go through.
What is a massive blue giant?
A massive blue giant is a type of star that is very large, hot, and luminous, with a blue-white color. These stars are much more massive than our sun and are in a later stage of their evolution, burning through their fuel at a rapid rate. They typically have short lifespans compared to smaller stars like the sun.
What do White dwarf stars turn into?
Sometimes if the conditions are just right a huge diamond! (the final stage of nucleosynthesis of stars that are not more massive is carbon Theoretically, they get dimmer and dimmer until they become "black dwarfs".
What stars turn into white dwarfs?
Sometimes if the conditions are just right a huge diamond! (the final stage of nucleosynthesis of stars that are not more massive is carbon Theoretically, they get dimmer and dimmer until they become "black dwarfs".
How is a massive star's stage 4 different than an average star's stage 4?
In the context of stellar evolution, a massive star's stage 4, also known as the red supergiant phase, differs from an average star's stage 4, which is the red giant phase, primarily in terms of mass and size. Massive stars have significantly higher mass compared to average stars, leading to more intense nuclear fusion reactions and the production of heavier elements in their cores. This results in a more rapid evolution and ultimately a more violent end stage, such as a supernova or even a black hole formation, compared to the relatively peaceful fate of an average star, which typically ends as a white dwarf.
What stage of stellar evolution marks the end of helium fusion?
In G-type stars, this would be the white dwarf stage. More massive stars could continue to fuse ever heavier elements, until the fusion products consist mainly of iron, and the stellar core collapses into a neutron star or a black hole.
What has the author W Sutantyo written?
W. Sutantyo has written: 'The effect of stellar evolution on the synchronous rotation of components of massive close binaries' -- subject(s): Double stars, Evolution, Stars
